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SEM manufacturers can choose different output sizes for their images, making magnification a very deceptive number when comparing SEM micrographs from different SEM manufacturers. Because of this fact, the best way to compare images is to compare the length of the micron bar or field of view.

With the JEOL NeoScope Benchtop SEM, pharmaceutical companies gain a robust and versatile tool for analyzing substance morphology, topography and composition right from within their own laboratory environment. The small footprint and intuitive operation make it easy for any lab personnel to conduct the high resolution imaging and analysis that only an SEM can deliver.

Scanning electron microscopes (SEM) coupled with an energy dispersive X-ray detector (EDS) are used extensively to provide insight into a sample’s chemical makeup. This SEM-EDS technique can provide information on the elements present, their relative concentrations and spatial distribution over very small volumes (micron and some instances nanometer scale).

Biological SEM comparisons and Materials SEM comparisons

The tabletop workflow solutions from JEOL allow researchers to setup a compact and user-friendly lab environment without compromising data integrity. This technology seamlessly guides the user from sample preparation to imaging, microanalysis and reporting.

The quest for renewable energy sources is prompting the development of technologies capable of tapping into alternative energy sources such as solar, wind, geothermal and tidal energy. To fully exploit these energy sources, engineers need novel ways of storing and converting these energies.

SEM is a natural extension to viewing specimens with an optical microscope due in part to its inherent higher depth of field and ability to resolve smaller microstructures. Creating a 3-dimensional (3D) surface model can further enhance our understanding with specimens that have complex topographical features.

JEOL’s Particle Analysis Software 3 (PA3) enhances the capability of your analytical SEM by automating the detection, EDS analysis and classification of particles, grains or other features in your samples. Fully integrated with our SEM-EDS systems, PA3 increases throughput and productivity by providing fast, unattended measurements across large areas of a sample, or multiple samples.

When a sample is exposed to the electron beam in a scanning electron microscope a variety of signals are generated. X-rays being one of those signals that can provide valuable insight into a materials chemical makeup. The collected X-ray signal includes background X-ray radiation and more importantly, X-rays of specific energies, that are characteristic of the elements present in the sample. For this reason, an energy dispersive X-ray detector (EDS) is one of the most common detectors that is added to a scanning electron microscope (SEM). It is used to not only determine the elements present in a sample but in many instances can give insight to the quantity as well as the spatial distribution of these elements over very small volumes.

The first commercially available SEM was introduced over 50 years ago and to this day there is still no internationally accepted standard for determining SEM resolution. To add to the confusion, each SEM manufacturer relies on their own sample and methods for determining resolution.

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